JPH0225682A - Far infrared ray radiating low temperature drying machine - Google Patents

Abstract

PURPOSE:To permit the low-temperature drying, deodorization, sterilization and the like of a material, received in a receiving chamber and projected by far infrared rays, by a method wherein a far infrared ray radiating layer is formed on the inside wall of the receiving chamber and a far infrared ray radiating electric heat generating body and an electric fan for sending air into the receiving chamber are provided at one side of the receiving chamber while a hot air discharging port is provided at the other side of the same. CONSTITUTION:An infrared ray radiating layer 3 is formed on the inside wall surface of a receiving chamber 1, having a lid body 2 and receiving a material to be projected by infrared rays, and infrared ray radiating electric bulbs 5 are arranged on the lower base table 4 while an electric fan 6 is provided at the upper part of the receiving chamber. The flow of hot air and slight smell, generated in the chamber, pass through a deodorizing filter 7 and cleaning hot air is discharged out of a hot air discharging port 8. Light and heat, emitted from the infrated ray radiating electric bulbs 5, is discharged by the electric fan 6 through the hot air discharging port 8 as hot air while the heat of the hot air is absorbed by the infrared ray radiating layer and is converted into heat energy immediaately. The material to be projected by infrared rays is heated simultanously with the starting of the radiation of far infrared rays whereby the material is dried quickly and deodorized by the effective effect such as deep heat arrival property, uniform heating property and the like which are unique for far infrared rays while the material is provided with useful properties such as fungiproof, steriliing, corrosion proofing and acid proofing effect and the like.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a far-infrared radiation low-temperature dryer that makes it possible to dry, deodorize, and sterilize objects to be irradiated at low temperatures.
It dries and deodorizes the bad odors of shoes, clothes, etc. rented to customers, and has antibacterial, sterilizing, anti-mold, antiseptic, fatty acid properties, etc.

It is connected to a far-infrared radiation low-temperature dryer that has also made it possible to produce dried artificial flowers, dried fish, etc.

Traditionally, indoor game halls, sports fields, etc. have a variety of rental items, but shoes, clothing, etc. are often rented out. The items are returned with body odor and bacteria still attached.

As the deformation progresses, foul-smelling substances accumulate and emit a strange odor. When a new rental is made, deodorizing spray can prevent bad odors, but it is difficult to completely deodorize the property.

Therefore, on-site regulation F! It seriously damages the environment of the place, leaves the place unattended when re-rented, contains odor, and gives off a feeling of disgust to customers due to the bad odor that re-emerges when used.

Moreover, it goes without saying that items rented out in such conditions are truly unhygienic, and the odor is often caused by incomplete drying of the items.

In the present invention, in order to remove these Class AIII, water odor components, oil odor components, etc. of the irradiated article are decomposed and vaporized by far infrared ray irradiation, and the active action unique to far infrared rays is utilized. 1. We are trying to provide a far-infrared radiation low-temperature dryer that not only removes bad odors and bacteria, but also has antibacterial, sterilizing, antiseptic, fatty acid effects, and other useful properties.

This intervening point is made up of a storage having N bodies, a far-infrared radiation layer is formed on the inner surface of the storage, and one or more far-infrared radiating electric heating elements are placed in one section of the storage and the An electric blower that blows air into the storage room? A hot air exhaust port is installed on the other side, and a high rate of far infrared rays is emitted from the far infrared radiation layer and the far infrared radiation electric heating element, and the irradiated object stored in the storage is heated at a low temperature. The FM problem can be solved by providing a far-infrared ray emitting layer, which is characterized by the fact that drying, deodorization, sterilization, etc. are not carried out, for a dryer.

In rice, far-infrared light, which belongs to a particularly long wavelength region among infrared light, activates water molecules and easily penetrates deep into the cell tissues of living trees of animals and plants. It has been confirmed that it is extremely useful for the breeding, growth, and survival of plants.

After appropriately irradiating water molecules with far-infrared rays, the results of a quality test of activated Ik water using various reagents showed that the chlorine term disappeared for a short time, and there was no harmful substance! It has been shown that it has the effect of inhibiting the formation of lactic acid, eliminating ammonia, and inhibiting the development of bacteria T. First, it has been discovered that water, drinking water, and foods are given a palatable taste, and that alcoholic beverages and pickles are given a mature taste. For things,
It was also confirmed that it has antibacterial, killing, antifungal, antiseptic, and fatty acid effects.

There are many far-infrared emitting substances that emit far-infrared rays.

It is estimated that there are about 200,000 types of emitting materials for f'L''4, but far-infrared radiators with particularly excellent radiation efficiency include ceramic materials, metal oxides, etc. There are natural stone-based materials such as carbon-based materials, carbon-based materials, and Oya stone and Maifan stone.In addition to these composite materials, artificially created far-infrared emitting materials are selectively used. In the natural world, these far-infrared emitting substances emit far-infrared rays from themselves, but when sunlight, ambient air, or appropriate heating means are used, heat is absorbed by the far-infrared ray-emitting substances and heat rays are emitted. By reflection, far infrared rays are amplified and radiated more efficiently.However, far infrared rays in the long wavelength range also have a favorable effect on moving objects.This light heat has a complex effect on water. Since it has compatibility and dual-A compatibility, it has the inherent ability to activate the irradiated object, although this is due to some unconfirmed reasons.

Normally, the wavelength of far-infrared rays emitted from far-infrared emitting materials due to sunlight or warm air is as follows.

The radiation wavelength varies depending on the radiation area, intensity of light heat, etc., but is approximately 4 to 9 microns. Furthermore, if an appropriate heating method is used, the wavelength of far infrared rays suitable for the human body, animals and plants is about 4 to 14 microns, but it is also possible to emit far infrared rays in a longer wavelength range. .

Therefore, in the present invention, a far-infrared emitting material with good radiation efficiency is selected from the far-infrared emitting materials, a far-infrared emitting layer is formed using the far-infrared emitting material, and the far-infrared rays are amplified and radiated by sunlight, warm air, blowing heat, etc. It is an object of the present invention to provide a far-infrared radiation low-temperature dryer that utilizes the effect of far-infrared irradiation.

Composition section Next, one embodiment of the present invention will be described with reference to the drawings.

In the partially fragmented front view of the first [2I, l is a storage for storing limb irradiation objects with a lid body 2; 5 infrared radiation bulbs are installed, and an electric blower 6 is installed on the top. 7 is a deodorizing filter, through which the hot air and V&W pass through, and the cleaning hot air is released from the hot air exhaust port 8. Reference numeral 9 indicates a connection cord for supplying power to the infrared radiation bulb 5 and the electric blower 6.

As shown in FIG. 2, the infrared radiation tt5 may further have a far-infrared radiation layer of 3° formed on a spherical surface. One or more infrared radiation bulbs 5 are arranged depending on the volume of the storage 1. In the example, three 150W infrared radiation bulbs for +1oov are installed. The bulb wall temperature is approximately 120° CPi degrees. As the electric blower 6, a 20W electric motor is used.

The deodorizing filter 7 is made of a material that can collect and deodorize residual Bt, dust, etc. using a general deodorizing agent. In order to eliminate the trapped temperature that occurs inside the storage compartment 1, hot air is appropriately discharged from the hot air exhaust port 8, and the storage compartment 1
Exhaust ports are appropriately opened to maintain a predetermined temperature (80 to 90°C) inside.

Said infrared number p! ! , $IR5, electric heater tubes 10 shown in FIG. 2 may be installed in an array.
3, and the power consumption of one is 150W. Furthermore,
A heater tube 10 having a far-infrared radiation layer of 3° formed on the wall may be used.

The far-infrared emitting layer is formed on the inner surface of the storage 1 by various means such as coating, film, attachment, and attachment.

Note that if the storage compartment 1 is made of a heat-transparent material, such as a wood-based material 1 or a synthetic resin-based material, a far-infrared radiation layer may be formed on the inner side surface of the storage compartment. In order to concentrate irradiation only on the area, heat ray-resistant materials such as stainless steel, etc.
A heat ray-opaque layer is formed using a thin plate made of aluminum, tin, etc., and a far-infrared radiation layer is formed on the inner surface of the layer. Alternatively, the entire storage 1 is made of a heat-resistant material such as stainless steel, aluminum, tin, etc.

The embodiment of the present invention is constructed as described above.

Effects The effects of the embodiments of the present invention will be described below.

Conventionally, for this type of heating dryer, a convection heating method using hot air has been widely adopted. In convection heating, the surface of the object to be heated is heated, and the transfer of heat to the inside is due to the conduction of convection heat, so the heat transfer is slow and the depth of penetration is small, so the heat reaches deep enough into the object to be heated. do not have. According to far-infrared radiation, the radiant heat travels in a straight line and has uniform heat penetration and depth, which promotes drying and deodorization and provides the unique usefulness of far-infrared rays.

To describe the effects of the embodiment of the present invention, first, the power supply connection cord 9 is connected to the power supply. The object to be illuminated @ is stored in the fence of storage L and the lid is closed. The light heat radiated from the infrared radiation bulb 5 is.

Although the inside of the storage 1 is filled with hot air, the hot air is appropriately discharged from the hot air exhaust port 8 by the electric blower 6, and the temperature inside the storage is maintained at about 80°C. This warm air is absorbed by the far-infrared radiation layer and immediately converted into thermal energy, and at the same time as the radiation of far-infrared light starts, the irradiated object inside the refrigerator is heated.
As mentioned above, due to the deep heat penetration, uniform heating, and other effective effects unique to far infrared rays, the limb irradiated object is quickly dried and deodorized, and the limb irradiated object has antibacterial, sterilizing, antifungal, and antiseptic properties.・It is endowed with usefulness such as fatty acid action.

From the exhaust port 8, the initial slight odor, dust, etc. are absorbed by the deodorizing filter 7, and a moderate amount of clean hot air is released, and the storage compartment 1
The inside is maintained at a predetermined temperature, and the far infrared rays are not radiated to the outside of the storage 1, but are radiated concentratedly into the inside, so it can be considered as the effect of the far infrared radiation efficiency of the − layer. It is possible.

In addition, since the embodiment of the present invention is mainly intended for drying and deodorizing daily necessities, the temperature of the hot air is as follows:
After 80°C sprouting is suitable. Far infrared rays belonging to a long wavelength range of about 4 to 20 microns are radiated from the far infrared radiation layer by hot air heating of 80'CIViYt&.

As described above, according to the far-infrared low-temperature dryer of the present invention, firstly, 5. ＠Drying and deodorizing of choux and human heads, etc., which occur in the back.Secondly, it evenly dries fish, etc. and imparts long-term shelf life and good taste.Thirdly, it damages pigments, capsular chlorophyll, etc. Complete drying of plants and early drying of daily necessities are carried out.

Therefore, these articles are endowed with the unique usefulness of far infrared rays, such as antibacterial, sterilizing, antiseptic, antifungal, and fatty acid properties.

The unique odor of III+ quality can easily deodorize rotten and oxidized odors from moke kimonos that are difficult to deodorize in a short period of time. In particular, odors from plants and animals that contain many water molecules are deodorized in a relatively short time.

The far-infrared radiation low-temperature dryer according to the present invention has excellent functions and effects as described above, and therefore has a wide range of uses including general household use and industrial use.

[Brief explanation of the drawing]

Fig. 1 is a partially exploded view of an embodiment of the present invention, Fig. 2 is a front view of a far-infrared ray emitting light bulb that constitutes the main part, and Fig. 3 is a partially exploded front view of a far-infrared radiant electric heater tube. This is what is shown. ■...Storage 9...Power connection cord 2...
Lid body 10... Electric heater tube 3... Far infrared radiation layer 4... Base 5... Infrared radiation bulb 6... Electric blower 7... Deodorizing filter 8... Hot air exhaust port

Claims (1)

[Scope of Claims] 1. A sealable storage with a lid, a far-infrared radiation layer formed on the inner wall of the storage, and a far-infrared radiating electric heating element on one side of the storage and the storage. An electric blower was installed to blow air into the storage compartment, a hot air exhaust port was opened on the other side, and a high rate of far infrared rays was radiated from the far infrared radiation layer and the far infrared radiation electric heating element, which was then stored in the storage compartment. A far-infrared radiation low-temperature dryer characterized by low-temperature drying, deodorizing, and sterilizing objects to be irradiated. 2. The far-infrared radiation low-temperature dryer according to claim 1, wherein the storage is made of a heat ray-opaque material. 3. The far-infrared radiation low-temperature dryer according to claim 1, characterized in that a heat ray-opaque layer is formed in the storage. 4. The far-infrared radiation low-temperature dryer according to claim 1, wherein the electric heating element is an infrared light bulb. 5. The far-infrared radiation low-temperature dryer according to claim 1, wherein the electric heating element is an electric heater tube formed with a far-infrared radiation layer.